U.S. patent application number 11/511445 was filed with the patent office on 2007-05-10 for press-fit fixing terminal, and electronic component having the same terminal.
Invention is credited to Yukio Hashimoto, Seiki Miura, Takumi Nishimoto, Takashi Tomago.
Application Number | 20070105456 11/511445 |
Document ID | / |
Family ID | 37991378 |
Filed Date | 2007-05-10 |
United States Patent
Application |
20070105456 |
Kind Code |
A1 |
Hashimoto; Yukio ; et
al. |
May 10, 2007 |
PRESS-FIT FIXING TERMINAL, AND ELECTRONIC COMPONENT HAVING THE SAME
TERMINAL
Abstract
A press-fit fixing terminal is mountable to a wiring board by
being inserted into a through-hole of the wiring board, and
includes a flat plate section and a resilient contacting section.
The flat plate section is made of metal thin plate and
double-backed such that an end of the flat plate section is placed
on a root side and a bent point works as an insertion tip when the
terminal is inserted into the through-hole. The resilient
contacting sections sandwich the double-backed portion of the flat
plate section such that they are placed symmetrically with respect
to the double-backed portion and both of the ridges of the
resilient contacting section face outward viewed from the
double-backed portion, so that each one of the resilient contacting
sections forms a V-shape including an obtuse angle.
Inventors: |
Hashimoto; Yukio; (Okayama,
JP) ; Miura; Seiki; (Okayama, JP) ; Nishimoto;
Takumi; (Okayama, JP) ; Tomago; Takashi;
(Okayama, JP) |
Correspondence
Address: |
WENDEROTH, LIND & PONACK L.L.P.
2033 K. STREET, NW
SUITE 800
WASHINGTON
DC
20006
US
|
Family ID: |
37991378 |
Appl. No.: |
11/511445 |
Filed: |
August 29, 2006 |
Current U.S.
Class: |
439/751 |
Current CPC
Class: |
H05K 2201/10765
20130101; H05K 2201/1059 20130101; H05K 3/308 20130101; H05K
2201/10856 20130101; H01R 12/585 20130101 |
Class at
Publication: |
439/751 |
International
Class: |
H01R 13/42 20060101
H01R013/42 |
Foreign Application Data
Date |
Code |
Application Number |
Nov 10, 2005 |
JP |
2005-325681 |
Claims
1. A press-fit fixing terminal mountable to a wiring board by being
inserted into a through-hole of the wiring board, the press-fit
fixing terminal comprising: a flat plate section made of metal thin
plate and double-backed such that an end of the plate is placed on
a root side and a bent point works as an insertion tip when the
terminal is inserted into the through-hole; and a resilient
contacting section forming a V-shape including an obtuse angle and
sandwiching the flat plate section at the double-backed portion
such that the resilient contacting sections are placed
symmetrically with respect to the double-backed portion and ridges
of the resilient contacting sections face outward respectively
viewed from the double-backed portion.
2. The press-fit fixing terminal of claim 1, wherein the resilient
contacting section is cut out at a center portion along a
longitudinal direction to form a long and narrow shape held between
narrow portions on both sides which are borders of the flat plate
section in a width direction, and a first end of the long and
narrow shape connects to the flat plate section, and a second end
of the long and narrow shape forms a free end.
3. The press-fit fixing terminal of claim 2, wherein the resilient
contacting section is formed by being sheared off from the flat
plate section for avoiding tailings which are produced at punching
the flat plate section.
4. The press-fit fixing terminal of claim 2, wherein the resilient
contacting section has the second end wider than the first end.
5. The press-fit fixing terminal of claim 2, wherein the resilient
contacting section has the second end which is bent away from the
flat plate section.
6. The press-fit fixing terminal of claim 2, wherein the second end
of the resilient contacting section has a greater width than a
width of a slit hole formed by punching out the resilient
contacting section from the flat plate section.
7. The press-fit fixing terminal of claim 2, wherein a center of
the ridge forms a spherical surface protruding outward in a
sectional view cut along a width direction.
8. The press-fit fixing terminal of claim 2 being integrated with
an electronic component.
9. An electronic component including a press-fit fixing terminal
which is mountable to a wiring board by being inserted into a
through-hole of the wiring board, the press-fit fixing terminal
comprising: a flat plate section made of metal thin plate and
double-backed such that an end of the plate is placed on a root
side and a bent point works as an insertion tip when the terminal
is inserted into the through-hole; and a resilient contacting
section forming a V-shape including an obtuse angle and sandwiching
the flat plate section at the double-backed portion such that the
resilient contacting sections are placed symmetrically with respect
to the double-backed portion and ridges of the resilient contacting
sections face outward respectively viewed from the double-backed
portion.
10. The electronic component of claim 9, wherein the resilient
contacting section is cut out at a center portion along a
longitudinal direction to form a long and narrow shape held between
narrow portions on both sides which are borders of the flat plate
section in a width direction, and a first end of the long and
narrow shape connects to the flat plate section, and a second end
of the long and narrow shape forms a free end.
Description
FIELD OF THE INVENTION
[0001] The present invention relates to a press-fit fixing terminal
to be inserted into a through-hole of a wiring board in order to
mount various electronic components to the wiring board, and the
press-fit fixing terminal connects the component mechanically and
electrically to the wiring board. The present invention also
relates to electronic components having the same terminals.
BACKGROUND OF THE INVENTION
[0002] Methods of mounting electronic components onto a wiring
board have focused on streamlining the mounting jobs, and also on
alleviating the environmental load as a lead-free soldering. Under
such a climate, a press-fit fixing terminal is employed to some
mounting methods instead of soldering.
[0003] This conventional press-fit fixing terminal is described
with reference to FIG. 6-FIG. 8. FIG. 6 shows a front view of the
conventional terminal, and FIG. 7 shows a lateral view of the
terminal shown in FIG. 6. FIG. 8 shows a schematic sectional view
cut along line 8-8 of FIG. 6, namely, a schematic sectional view
illustrating the press-fit fixing terminal mounted to a wiring
board. In FIG. 6, press-fit fixing terminal 301 is attached to
electronic component 302, and terminal 301 is formed symmetrically
with respect to a center axis of an inserting direction to the
wiring board.
[0004] Press-fit fixing terminal 301 has hollow section 303 formed
by blanking along the outline thereof Terminal 301 is formed of two
lines, and each one of the lines includes extending section 304
linearly extends from the root of electronic component 302,
straddling section 305 which flares gradually from extending
section 304 to ridges 306, and terminal segments 307 which tapers
off from ridges 306 to tip of terminal 301.
[0005] As shown in FIG. 7, the one line formed of straddling
section 305 and terminal segment 307 is bent, thereby forming a
V-shaped wedge, the other line formed of straddling section 305 and
terminal segment 307 is bent in the same way, so that the two lines
are spaced out widest at ridges 306.
[0006] Press-fit fixing terminal 301 discussed above is
press-fitted into through-hole 308 provided to wiring board 309 as
shown in FIG. 8. The inner diameter of through-hole 308 is slightly
smaller than the maximum width between two ridges 306 in order to
maintain the mechanical and electrical connections of terminal
301.
[0007] Prior art related to the present invention is disclosed in,
e.g. Unexamined Japanese Patent Publication No. 2003-257526.
[0008] As shown in FIG. 8, conventional press-fit fixing terminal
301 has two ridges 306 which are brought into contact with
through-hole 308 at the insertion, and ridges 306 are the cut-faces
or the corners produced by blanking press-fit terminal 301 out of
the material metal plate, so that the ground of the material
contacts through-hole 308. In order to get stable electrical
contact, terminal 301 undergoes a plating process after the
blanking. The plating process incurs an additional cost and
sometimes invites deformation.
SUMMARY OF THE INVENTION
[0009] The press-fit fixing terminal of the present invention is
mountable to a wiring board by being inserted into a through-hole
of the wiring board, the terminal comprises the following
elements:
[0010] a flat plate section made of metal thin plate and
double-backed such that its end is placed on a root side and a bent
point works as an insertion tip when the terminal is inserted into
the through-hole; and
[0011] two resilient contacting sections sandwiching a
double-backed portion of the flat plate section and placed
symmetrically with respect to the double-backed portion, and
respective ridges of the resilient contacting sections facing
outward viewed from the double-backed portion, i.e. each one of the
resilient contacting sections forming a V-shape including an obtuse
angle.
[0012] The resilient contacting section of the terminal is formed
this way: a center part of the flat plate section is cut out to
form a long and narrow shape, and a first end of the long and
narrow shape remains solid with the flat plate section, and a
second end thereof is left free. In other words, the flat plate
section is cut at its center part along the longitudinal direction
such that the center part is hold between narrow parts on both
sides. The narrow parts are namely borders of the flat plate
section in the width direction.
[0013] Electronic components of the present invention are equipped
with press-fit fixing terminals mountable to a wiring board by
being inserted into through-holes. The terminals have the structure
discussed above.
[0014] This construction allows the press-fit fixing terminal to be
made of thin material in thickness, so that the terminal can be
resistant to plastic deformation and stable in contact. On top of
that, the surface of original material not have been cut can be
used as a contacting face, so that electrical contact becomes
stable. The material undergone a plating process can be used, so
that an inexpensive press-fit fixing terminal excellent in contact
stability is achievable, and an electronic component equipped with
this press-fit fixing terminal is obtainable.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] FIG. 1 shows a front view of a press-fit fixing terminal in
accordance with an embodiment of the present invention.
[0016] FIG. 2 shows a lateral view of the press-fit fixing terminal
shown in FIG. 1.
[0017] FIG. 3 shows vertical sectional view illustrating the
press-fit fixing terminal, shown in FIG. 1, being press-fitted into
a through-hole of a wiring board.
[0018] FIG. 4 shows a horizontal sectional view taken along line
4-4 of FIG. 3.
[0019] FIG. 5 shows an external appearance of another press-fit
fixing terminal having a different structure.
[0020] FIG. 6 shows a front view of a conventional press-fit fixing
terminal.
[0021] FIG. 7 shows a lateral view of the press-fit fixing terminal
shown in FIG. 6.
[0022] FIG. 8 shows a schematic sectional view taken along line 8-8
of FIG. 6 and illustrating the press-fit fixing terminal, shown in
FIG. 6, being mounted to a wiring board.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENT
[0023] An exemplary embodiment of the present invention is
demonstrated hereinafter with reference to the accompanying
drawings. FIG. 1 shows a front view of a press-fit fixing terminal
in accordance with the embodiment of the present invention. FIG. 2
shows a lateral view of the press-fit fixing terminal shown in FIG.
1. FIG. 3 shows vertical sectional view illustrating the press-fit
fixing terminal, shown in FIG. 1, being press-fitted into a
through-hole of a wiring board. FIG. 4 shows a horizontal sectional
view taken along line 4-4 of FIG. 3.
[0024] In FIG. 1 and FIG. 2, press-fit fixing terminal 11 of the
present invention is mountable to a wiring board by being
press-fitted into a through-hole of the wiring board, and terminal
11 includes flat plate section 14 and resilient contacting section
17.
[0025] Flat plate section 14 is made of metal thin plate and
double-backed, so that end 12 is placed near the root, and bent
point 20 works as insertion tip 13 when terminal 11 is press-fitted
into a through hole. Two resilient contacting sections 17 sandwich
double-backed section 30 of flat plate section 14, and are placed
symmetrically with respect to double-backed section 30. Both ridges
18 face outward viewed from double-backed section 30, so that each
one of the resilient contacting sections 17 forms a V-shape
including an obtuse angle.
[0026] Resilient contacting section 17 is formed this way: a center
part of flat plate section 14 is cut out to form a long and narrow
shape, and first end 31 of the long and narrow shape remains solid
with flat plate section 14 and second end 32 of the long and narrow
shape is left free. In other words, flat plate section 14 is cut at
its center part along the longitudinal direction such that the hole
left after the cut is held between narrow parts 15 on both sides.
Narrow parts 15 are namely borders of flat plate section 14 in the
width direction.
[0027] Press-fit fixing terminal 11 in accordance with this
embodiment is further detailed hereinafter with reference to FIG.
1-FIG. 4. In FIGS. 1 and 2, terminal 11 is integrated into
electronic component 2, and made of resilient metal thin plate
including copper alloy having undergone a well electrically
conductive plating process. The metal thin plate is double-backed
such that end 12 of flat plate section 14 led out from electronic
component 2 is placed near the root extending from component 2. The
metal thin plate is thus double-backed, so that double-backed
section 30 is formed. The bent point i.e. turn 20 works as
insertion tip 13 when the terminal is inserted into a through hole
of a wiring board.
[0028] Press-fit fixing terminal 11 is cut at its center part along
the longitudinal direction such that the center part forms a long
and narrow shape, narrow parts 15 on both sides of the center part
remain solid with flat plate section 14, and the center section
remains solid with (connecting to) flat plate section 14 only at
its lower end, i.e. on the side of insertion tip 13.
[0029] This long and narrow shape is processed into resilient
contacting section 17 forming a V-shape including an obtuse angle
this way: the shape is provided to both the faces of double-backed
section 30 such that the shape becomes symmetrically on both sides,
and both ridges 18 face outward viewed from double-backed section
30, so that the long and narrow portion forms a V-shape including
an obtuse angle.
[0030] In other words, resilient contacting section 17 is cut out
at its center section held between narrow parts 15 on both sides,
which are borders of flat plate section 14 in the width direction,
and first end 31 of the long and narrow portion remains solid with
(connecting to) flat plate section 14, and second end 32 is left
free.
[0031] Two resilient contacting sections 17 are punched out like
"shearing off" free from tailings when they are punched out from
flat plate section 14. The free end on the opposite side of
connecting section 16, namely, second end 32 of resilient
contacting section 17 forms wider section 19 having a greater width
along the width direction than first end 31. Wider section 19, i.e.
second end 32 can be bent away from flat plate section 14 in a
regular status without any load.
[0032] Wider section 19, i.e. second end 32 is rolled to become
much wider, so that second end 32 has a greater width than that of
slit hole 141 left behind punching out resilient contacting section
17 from flat plate section 14. Ridges 18 of two resilient
contacting sections 17 protrude outward at their centers, so that a
roughly spherical shape is formed on respective sides in the
sectional view cut along the width direction.
[0033] Press-fit fixing terminal 11 discussed above is press-fitted
into a through hole of a wiring board. This status is described
hereinafter with reference to FIGS. 3 and 4, in which terminal 11
is press-fitted in through-hole 8 provided to wiring board 9.
[0034] Two resilient contacting sections 17 are bent such that the
space between two ridges 18 of two V-shaped resilient contacting
sections 17 becomes somewhat greater than the diameter of
through-hole 8. This structure allows each one of the free end,
i.e. wider section 19 formed on the upper end of contacting section
17, to resiliently slide upward on the surface of flat plate
section 14, and when the space between two ridges 18 becomes narrow
enough due to the slide for two ridges 18 to fit into through-hole
8, resilient contacting sections 17 are press-fitted into
through-hole 8 and urge against the inner wall of through-hole
8.
[0035] Since resilient contacting section 17 is bent into a V-shape
including an obtuse angle, its free end, i.e. wider section 19, is
brought into contact with slit hole 141 having a narrower width
than that of a hole left behind punching out wider section 19 from
flat plate section 14. Wider sections 19 thus will not fall into
slit hole 141 in the regular status or when resilient contacting
section 17 is press-fitted. Yet, in this embodiment, wider section
19 is rolled to be much wider, so that wider section 19 is
positively prevented from falling into slit hole 141. As a result,
the press-fit into through-hole 8 can be done smoothly.
[0036] The free end, namely, wider section 19, is bent away from
flat plate section 14 in regular status. The cut edge of the free
end thus becomes farther away from the surface of flat plate
section 14. The bent point of wider section 19 slides smoothly on
the surface of flat plate section 14 with a little contact
resistance, so that terminal 11 can be inserted with ease and a
stable contacting pressure can be expected.
[0037] As shown in FIG. 4, ridges 18 form roughly spherical
surfaces of which center parts moderately protrude outward, so that
the contacting portions to the inner wall of through-hole 8 become
close to area contact. The previous discussion proves that the cut
edge of terminal 11 is not used as the contacting portion, so that
terminal 11 provides stable electrical contact.
[0038] This embodiment proves that the material face prior to the
process can be used as contacting face of resilient contacting
section 17, so that the contacting face resiliently contacts
through-hole 8. Therefore, well-conductive material such as silver
can be used as plated material, so that inexpensive press-fit
fixing terminals are obtainable.
[0039] Two resilient contacting sections 17 confronting each other
allow terminal 11 to secure sufficient contacting pressure although
the material is metal thin plate, so that stable mechanical
connection is obtainable. On top of that, since plated material can
be used, an electrical contacting function can be integrated into
the inside (not shown) of electronic component 2.
[0040] Resilient contacting section 17 which works as a mechanical
connector as well as an electrical connector to through-hole 8 is
formed by cutting out (shearing off) the center portion in width
direction of flat plate section 14 of terminal 11, so that terminal
11 needs only a narrow width and scrapped material can be thus
minimized.
[0041] In this embodiment, the free end of resilient contacting
section 17, namely, wider section 19, is rolled to be wider than
the width of slit hole 141, however, narrow parts 15 of flat plate
section 14 can be crushed to form projection 142 for narrowing the
width of slit hole 141. This structure prevents wider section 19
from falling into slit hole 141, and allows ridges 18 to contact
through-hole 8 mechanically and electrically in stable manner.
Although this is not illustrated, narrow parts 15 can be pushed
inside laterally along the width direction to deform for narrowing
the width of slit hole 141. This preparation also produces an
advantage similar to what is discussed previously.
[0042] Wider section 19 is not always needed, because the width of
the resilient contacting section can be flared from the border
between the flat plate section and the resilient contacting section
toward the free end. This structure can also prevent the resilient
contacting section from falling into the slit hole.
[0043] The press-fit fixing terminal of the present invention is
useful product because it can be used in variable resistors,
encoders, switches, and antennas.
[0044] According to the present invention, an original face of flat
plate of the material can be used as a contacting face, so that the
material having undergone plating process can be used, which allows
providing inexpensive press-fit fixing terminals having stable
contact with through-holes.
[0045] In the case of using the resilient contacting section
punched out (sheared off) from the flat plate section, a press-fit
fixing terminal having a narrow width is obtainable, so that
scrapped material can be minimized and a through-hole having a
smaller diameter can receive the terminal. As a result, electronic
devices using this terminal can be downsized.
[0046] The resilient contacting section, forming a V-shape with an
obtuse angle inclusive and having a second end wider than a first
end, can prevent the free end (second end) from falling into the
slit hole of the flat plate section, so that stable contacting
pressure is obtainable.
[0047] The resilient contacting section, of which free end (second
end) is bent away from the flat plate section, allows the free end
to confront the flat plate section when the terminal is inserted
into a through-hole, so that contact resistance is reduced and the
resilient contacting section tends to be resiliently deformed. As a
result, the terminal is easy to press-fitted, and a stable contact
pressure can be expected.
[0048] The resilient contacting section having the second end (free
end) wider than the width of the slit hole formed by punching out
the resilient contacting section from the flat plate section
prevents the free end from falling into the slit hole, so that
stable contact pressure is obtainable.
[0049] The resilient contacting section having a ridge, of which
center protrudes outward and forms roughly a spherical surface in a
sectional view cut along the width direction, allows contacting the
through-hole with generally a spherical face, so that stable
contact is obtainable.
[0050] Press-fit fixing terminals of the present invention can
employ plated material, so that stable contact and an inexpensive
cost can be advantageously expected. The terminals thus can be
employed as terminals of electronic components which are to be
mounted to wiring boards by press-fitting the terminals into the
through-holes.
* * * * *